7 results on '"Harsha PK"'
Search Results
2. Validating saliva as a biological sample for cost-effective, rapid and routine screening for SARS-CoV-2.
- Author
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Ansil BR, George CE, Chandrasingh S, Viswanathan A, Thattai M, Raghu P, Devadiga S, Harikumar AG, Harsha PK, Nair I, Ramakrishnan U, and Mayor S
- Subjects
- Humans, SARS-CoV-2, Cost-Benefit Analysis, India, Nasopharynx, Specimen Handling, Saliva, COVID-19 diagnosis
- Abstract
Purpose: Compared to nasopharyngeal/oropharyngeal swabs (N/OPS-VTM), non-invasive saliva samples have enormous potential for scalability and routine population screening of SARS-CoV-2. In this study, we investigate the efficacy of saliva samples relative to N/OPS-VTM for use as a direct source for RT-PCR based SARS-CoV-2 detection., Methods: We collected paired nasopharyngeal/oropharyngeal swabs and saliva samples from suspected positive SARS-CoV-2 patients and tested using RT-PCR. We used generalized linear models to investigate factors that explain result agreement. Further, we used simulations to evaluate the effectiveness of saliva-based screening in restricting the spread of infection in a large campus such as an educational institution., Results: We observed a 75.4% agreement between saliva and N/OPS-VTM, that increased drastically to 83% in samples stored for less than three days. Such samples processed within two days of collection showed 74.5% test sensitivity. Our simulations suggest that a test with 75% sensitivity, but high daily capacity can be very effective in limiting the size of infection clusters in a workspace. Guided by these results, we successfully implemented a saliva-based screening in the Bangalore Life Sciences Cluster (BLiSC) campus., Conclusion: These results suggest that saliva may be a viable alternate source for SARS-CoV-2 surveillance if samples are processed immediately. Although saliva shows slightly lower sensitivity levels when compared to N/OPS-VTM, saliva collection is logistically advantageous. We strongly recommend the implementation of saliva-based screening strategies for large workplaces and in schools, as well as for population-level screening and routine surveillance as we learn to live with the SARS-CoV-2 virus., Competing Interests: Conflict of Interest The authors declare that they have no conflict of interest., (Copyright © 2023 Indian Association of Medical Microbiologists. Published by Elsevier B.V. All rights reserved.)
- Published
- 2023
- Full Text
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3. Mitochondrial Dysfunction in Rabies Virus-Infected Human and Canine Brains.
- Author
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Harsha PK, Ranganayaki S, Yale G, Dey G, Mangalaparthi KK, Yarlagadda A, Chandrasekhar Sagar BK, Mahadevan A, Srinivas Bharath MM, and Mani RS
- Subjects
- Animals, Brain metabolism, Dogs, Humans, Mitochondria metabolism, Proteomics, Rabies metabolism, Rabies pathology, Rabies virus physiology
- Abstract
Rabies is a fatal encephalitis caused by the Rabies lyssavirus (RABV). The presence of minimal neuropathological changes observed in rabies indicates that neuronal dysfunction, rather than neuronal death contributes to the fatal outcome. The role of mitochondrial changes has been suggested as a possible mechanism for neuronal dysfunction in rabies. However, these findings are mostly based on studies that have employed experimental models and laboratory-adapted virus. Studies on brain tissues from naturally infected human and animal hosts are lacking. The current study investigated the role of mitochondrial changes in rabies by morphological, biochemical and proteomic analysis of RABV-infected human and canine brains. Morphological analysis showed minimal inflammation with preserved neuronal and disrupted mitochondrial structure in both human and canine brains. Proteomic analysis revealed involvement of mitochondrial processes (oxidative phosphorylation, cristae formation, homeostasis and transport), synaptic proteins and autophagic pathways, with over-expression of subunits of mitochondrial respiratory complexes. Consistent with these findings, human and canine brains displayed elevated activities of complexes I (p < 0.05), IV (p < 0.05) and V (p < 0.05). However, this did not result in elevated ATP production (p < 0.0001), probably due to lowered mitochondrial membrane potential as noted in RABV-infected cells in culture. These could lead to mitochondrial dysfunction and mitophagy as indicated by expression of FKBP8 (p < 0.05) and PINK1 (p < 0.001)/PARKIN (p > 0.05) and ensuing autophagy, as shown by the status of LCIII (p < 0.05), LAMP1 (p < 0.001) and pertinent ultrastructural markers. We propose that altered mitochondrial bioenergetics and cristae architecture probably induce mitophagy, leading to autophagy and consequent neuronal dysfunction in rabies., (© 2022. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)
- Published
- 2022
- Full Text
- View/download PDF
4. Rabies in the endangered Asiatic wild dog (Cuon alpinus) in India.
- Author
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Mani RS, Harsha PK, Pattabiraman C, Prasad P, Sujatha A, Abraham SS, G S AK, and Chandran S
- Subjects
- Animals, Animals, Wild, Dogs, Endangered Species, India epidemiology, Canidae, Dog Diseases epidemiology, Rabies epidemiology, Rabies veterinary, Rabies Vaccines, Rabies virus
- Published
- 2021
- Full Text
- View/download PDF
5. Inhibition of mitochondrial complex II in neuronal cells triggers unique pathways culminating in autophagy with implications for neurodegeneration.
- Author
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Ranganayaki S, Jamshidi N, Aiyaz M, Rashmi SK, Gayathri N, Harsha PK, Padmanabhan B, and Srinivas Bharath MM
- Subjects
- 1-Methyl-4-phenylpyridinium pharmacology, Animals, Cell Death, Cell Line, Cell Survival, Cells, Cultured, Electron Transport Complex I antagonists & inhibitors, Electron Transport Complex I metabolism, Electron Transport Complex II antagonists & inhibitors, Gene Expression genetics, Gene Expression Profiling methods, Mitochondria metabolism, Movement Disorders physiopathology, Neurodegenerative Diseases metabolism, Neurodegenerative Diseases physiopathology, Neuroprotection, Neurotoxins toxicity, Nitro Compounds pharmacology, Propionates pharmacology, Rats, Transcriptome genetics, Autophagy physiology, Electron Transport Complex II metabolism, Neurons metabolism
- Abstract
Mitochondrial dysfunction and neurodegeneration underlie movement disorders such as Parkinson's disease, Huntington's disease and Manganism among others. As a corollary, inhibition of mitochondrial complex I (CI) and complex II (CII) by toxins 1-methyl-4-phenylpyridinium (MPP
+ ) and 3-nitropropionic acid (3-NPA) respectively, induced degenerative changes noted in such neurodegenerative diseases. We aimed to unravel the down-stream pathways associated with CII inhibition and compared with CI inhibition and the Manganese (Mn) neurotoxicity. Genome-wide transcriptomics of N27 neuronal cells exposed to 3-NPA, compared with MPP+ and Mn revealed varied transcriptomic profile. Along with mitochondrial and synaptic pathways, Autophagy was the predominant pathway differentially regulated in the 3-NPA model with implications for neuronal survival. This pathway was unique to 3-NPA, as substantiated by in silico modelling of the three toxins. Morphological and biochemical validation of autophagy markers in the cell model of 3-NPA revealed incomplete autophagy mediated by mechanistic Target of Rapamycin Complex 2 (mTORC2) pathway. Interestingly, Brain Derived Neurotrophic Factor (BDNF), which was elevated in the 3-NPA model could confer neuroprotection against 3-NPA. We propose that, different downstream events are activated upon neurotoxin-dependent CII inhibition compared to other neurotoxins, with implications for movement disorders and regulation of autophagy could potentially offer neuroprotection.- Published
- 2021
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6. Continual circulation of ECSA genotype and identification of a novel mutation I317V in the E1 gene of Chikungunya viral strains in southern India during 2015-2016.
- Author
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Harsha PK, Reddy V, Rao D, Pattabiraman C, and Mani RS
- Subjects
- Amino Acid Substitution, Chikungunya Fever epidemiology, Evolution, Molecular, Genes, Viral, Genotype, Humans, India epidemiology, Mutation, Phylogeny, Chikungunya Fever virology, Chikungunya virus genetics, Viral Envelope Proteins genetics
- Abstract
Chikungunya, a mosquito-borne disease caused by Chikungunya virus (CHIKV), continues to be a significant public health problem in India. In 2016, 56 000 cases were reported from India, the largest number since the reemergence of CHIKV in this region in 2006. In the present study, using molecular and phylogenetic methods, the circulating strains from southern India during 2015-2016 were characterized in the context of circulating Asian strains. Partial envelope gene (E1) sequencing was performed on 20 serum samples positive for CHIKV by a reverse transcription-polymerase chain reaction. Phylogenetic analysis showed that all the sequences in this study belonged to the East Central South African (ECSA) genotype and clustered together with other strains from India. Bayesian phylogenetic analysis revealed that the sequences from the study grouped into two different subclades. The estimate of divergence times suggests that subclades of the ECSA genotype, share a common ancestor approximately 4 to 12 years ago. Six nonsynonymous mutations-K211E, M269V, D284E, V322A, I317V and V220I were noted in E1. In conclusion, this study revealed the cocirculation of distinct subclades within the ECSA genotype of CHIKV in South India during 2015-2016. The I317V mutation in E1 has only been described in recent CHIKV strains from north-central India and Bangladesh. This study highlights the need for continued molecular surveillance to identify the emergence of novel strains and unique mutations in CHIKV with epidemic potential., (© 2020 Wiley Periodicals, Inc.)
- Published
- 2020
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7. Serological Evidence of Lyssavirus Infection among Bats in Nagaland, a North-Eastern State in India.
- Author
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Mani RS, Dovih DP, Ashwini MA, Chattopadhyay B, Harsha PK, Garg KM, Sudarshan S, Puttaswamaiah R, Ramakrishnan U, and Madhusudana SN
- Subjects
- Animals, India epidemiology, Prevalence, Rabies epidemiology, Rabies veterinary, Rabies virology, Rabies virus isolation & purification, Rhabdoviridae Infections epidemiology, Rhabdoviridae Infections virology, Chiroptera, Lyssavirus isolation & purification, Rhabdoviridae Infections veterinary
- Abstract
Bats are known to be reservoirs of several medically important viruses including lyssaviruses. However, no systematic surveillance for bat rabies has been carried out in India, a canine rabies endemic country with a high burden of human rabies. Surveillance for rabies virus (RABV) infection in bats was therefore carried out in Nagaland, a north-eastern state in India at sites with intense human-bat interfaces during traditional bat harvests. Brain tissues and sera from bats were tested for evidence of infection due to RABV. Brain tissues were subjected to the fluorescent antibody test for detection of viral antigen and real-time reverse transcriptase PCR for presence of viral RNA. Bat sera were tested for the presence of rabies neutralizing antibodies by the rapid fluorescent focus inhibition test. None of the bat brains tested (n = 164) were positive for viral antigen or viral RNA. However, rabies neutralizing antibodies were detected in 4/78 (5·1%) bat sera tested, suggesting prior exposure to RABV or related lyssaviruses. The serological evidence of lyssaviral infection in Indian bats may have important implications in disease transmission and rabies control measures, and warrant extensive bat surveillance to better define the prevalence of lyssaviral infection in bats.
- Published
- 2017
- Full Text
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